SU881473A1 - Refrigeration plant - Google Patents

Description

one

The invention relates to refrigeration engineering, and more specifically to refrigeration units, in which an evaporator with in-tube boiling of a refrigerant: a gent is used.

Refrigeration units are known that contain a circulation loop in which a compressor, a condenser, an ejector, an evaporator with in-line boiling of a refrigerant and a liquid separator, whose fluid chamber is connected to the ejector's receiving chamber, and the second ejector l are installed in series, and the second ejector l ..

A disadvantage of the known installations is that they cannot more accurately adjust the steam content of the refrigerant sent to the evaporator to intensify in the last heat exchange process.

The purpose of the invention is to intensify the process of heat exchange in the evaporator.

This goal is achieved by the fact that the compressor is screw-type with an intermediate compression chamber, and the second ejector is connected to the circuit in front of the first ejector, and its receiving chamber is connected to the intermediate compression chamber of the screw compressor.

The drawing shows schematically the proposed installation.

The installation includes a screw compressor 1, a condenser 2, an ejector 3, an evaporator 4, a liquid separator 5, a second ejector 6 with a receiving chamber 7, an intermediate chamber 8 for compressing a screw compressor.

The installation works as follows.

Compressor 1 sucks coolant vapor from liquid separator 5 and pumps them mostly to condenser 2 and the remaining part 15 of this part from intermediate compressor compression chamber 8 to the receiving chamber 7 of the second ejector 6. Liquid refrigerant from condenser 2 is supplied to the working nozzle the ejector 6 and forms a vapor-liquid emulsion with the vapor, which is directed to the working nozzle of the ejector 3, k. the receiving chamber of which is supplied with liquid from the separator 5 liquid

25 Next, the vapor-liquid mixture enters the evaporator 4, in which it boils at low pressure with the production of xoViof of a corresponding effect. Leaving the liquid with vapor without evaporation

30 low pressure refrigerants come from a 4 volt evaporator. liquid separator 5. Further installation operation cycle is repeated.

When the installation is in operation, the steam-containing boiling liquid refrigerant in the evaporator is maintained so that it creates the maximum heat transfer coefficient from the walls of the heat-exchange surface to the boiling refrigerant, which allows to intensify the heat exchange process in this unit.

The economic effectiveness of the invention is expressed in reducing the metal intensity of the evaporator by 30% and the entire installation.

Claims (1)

1. USSR author's certificate in application 2878027, cl. F 25 B 1/06, 05.02.80.